The channel-forming glycoprotein PANX3 functions in cutaneous wound healing and keratinocyte differentiation, but its role in maintaining skin homeostasis through aging is not yet understood. We found that PANX3 is absent in newborn skin but becomes upregulated with age. We characterized the skin of global Panx3-knockout (KO) mice and found that KO dorsal skin showed sex differences at different ages but generally had reduced dermal and hypodermal areas compared with age-matched controls. Transcriptomic analysis of the KO epidermis revealed reduced E-cadherin stabilization and Wnt signaling compared with that of wild-type, consistent with the inability of primary KO keratinocytes to adhere in culture and diminished epidermal barrier function in KO mice. We also observed increased inflammatory signaling in the KO epidermis and a higher incidence of dermatitis in aged KO mice compared with that in wild-type controls. These findings suggest that during skin aging, PANX3 is critical in the maintenance of dorsal skin architecture, keratinocyte cell-cell and cell-matrix adhesion, and inflammatory skin responses.
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